Technology and application of laser cutting machine for processing stainless steel capillaries

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As a high-precision and efficient processing equipment, precision thin-walled tube laser cutting machine is widely used in medical devices and electronic components. With the continuous advancement of science and technology, the importance of this technology has become increasingly prominent and has shown incomparable advantages.

The process principle of the laser cutting machine is based on a high-energy-density laser beam, which achieves precise cutting of the capillary by instantaneously heating and evaporating the surface of the workpiece. This process is not only fast and accurate, but can also achieve cutting accuracy at the micron level, ensure the surface smoothness and dimensional accuracy of the processed parts, and effectively avoid the generation of burrs.

High-precision processing is one of the most significant advantages of laser cutting machines, which can achieve micron-level cutting accuracy to meet the needs of high-precision processing. Whether it is a fine catheter in a medical device or a micro-part in an electronic component, laser cutting can ensure the accuracy of its size and shape.

In addition, the flexibility and customizability of laser cutting enable it to be flexibly cut according to different design requirements, including shape, size, and aperture. This feature makes laser cutting machines widely used in many fields. There is no need to touch the workpiece during the laser cutting process, which reduces the risk of physical and chemical contamination, ensures the cleanliness of the processing environment and the high purity of the product. This is particularly important for the manufacture of medical devices and electronic components, as these products usually require extremely high cleanliness to meet the requirements of use.

The precision thin-walled tube laser cutting machine is specially developed for metal capillary processing and is suitable for laser micro-processing such as cutting, drilling and grooving of various materials such as stainless steel, aluminum, copper, and titanium. These devices not only have high cutting accuracy and smooth incisions, but also can adapt to changes in shape tolerances and support a variety of clamping systems and supporting solutions.

With the continuous advancement of technology, stainless steel capillary laser cutting technology will continue to play an important role in various fields. Whether it is the precision manufacturing of medical devices or the miniaturization of electronic components, laser cutting technology will provide strong support for modern industry with its unique advantages. In the future, this technology will undoubtedly show its irreplaceable value in more fields.